The present invention relates to an apparatus for controlling, measuring and reporting a physical quantity, more specifically to an apparatus that can be adapted to any valve of a container containing a fluid under pressure, more particularly a device that can be adapted to any valve of a container containing a gas or liquid under pressure. It has a particularly advantageous application in the general field of measuring the pressure of the output flow of fluid, in particular industrial or medicinal fluids contained in bottles. The machine comprises the support, electromechanical switch constituted by the dosing knob and the support for the dosing knob which incorporates the electronic circuitry for controlling the rate of fluid flow by pressure sensor for reading the output pressure of the fluid from the container and by the data processing system for processing the data obtained by the electromechanical switch and by the pressure sensor. This information can be viewed on the display or remotely transmitted.
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1. A device for controlling, measuring, and reporting a physical quantity of a container containing a fluid under pressure, the device comprising:
a pressure sensor in fluid communication with the container;
an electromechanical switch; and
a processor arranged for processing data obtained by the pressure sensor and by the electromechanical switch;
wherein the electromechanical switch comprises:
a housing comprising a cavity defined by walls of the housing;
an electronic circuit disposed in the cavity, the electronic circuit having an upper surface comprising a circuitry having points of contact;
a dosing knob having a lower surface comprising a plurality of slots and a plurality of sensitive elements;
wherein the dosing knob is positioned in the housing such that the lower surface of the dosing knob is adjacent to the upper surface of the electronic circuit;
wherein the processor determines the value of the flow rate referent to the active combination of circuits that make up the electronic circuit.
4. The device according to
5. The device according to
6. The device according to
7. The device according to
8. The device according to
10. The device according to
11. A method of calculating a flow rate value of an output flow of fluid from a container under pressure, the method comprising:
providing the device according to
manually selecting a position of the dosing knob, to allow the sensitive elements contacting the contact points on the electronic circuit to activate a circuit in the electronic circuit, a signal from the activated circuit being transmitted to the processor;
calculating, using the processor, a value of the flow rate from a combination of circuits that are activated.
12. The method according to
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The present invention relates to an apparatus for the control, measuring and communicating a physical quantity, more specifically to a device that can be adapted to any valve of a container containing a fluid under pressure, more particularly a device that can be adapted to any valve of a container containing a gas or a liquid under pressure.
The invention has a particularly advantageous application in the general field of measuring the pressure of the fluid output flow, in particular industrial or medicinal fluids contained in bottles.
This invention has as its object a device whose technical problem is an electromechanical system that allows the selection of pre-set flow quantities, to be used in valves of containers containing fluids under pressure.
There are known in the art several ways to control and measure the output pressure of a fluid contained in a container, in particular by connecting the container to external devices, which can be either acquisition means of fluid pressure, such as pressure sensors located within or downstream the container, or flow control means such as pressure regulators or flow regulators.
However, these systems have the great disadvantage of not being possible to use in order to measure the consumptions and its communication for subsequent reading, thus not guaranteeing the traceability of the consumption.
As a matter of fact, in many applications, the same fluid container can be successively moved to different places where limited amounts of fluid are consumed. This is the case, for example, of the so called “nomadic gas” bottles installed in ambulances or used in specific situations.
In many of these situations it is necessary to know the precise amount of consumed fluid, not only required for administrative procedures, either billing or consumption tracking, but even to control the amount of fluid still available in the container. However, this information is not guaranteed with the current systems.
Within the scope of the equipment that offer solutions to the above mentioned problems, we can mention the patent FR 2919376 referring to a “Valve system to a bottle of fluid under pressure”. As a complement to this document we refer to the patents FR 2901873 and FR 2901874 that mention “Device to indicate a physical quantity.”
As differentiating elements of the existing devices, the equipment has the great advantage of being a device that can be attached to any valve available on the market, without the need to change the same, thus maintaining unchanged the technical and security features of the manufacturer of the valve.
It also has the advantage of providing a technical effect of increased strength of the equipment when compared to the electronic selection systems belonging to the prior art.
These and other features can be readily understood by the accompanying drawings, which should be considered as examples and not as restrictive in any way of the scope of the invention. In the drawings, for illustrative purposes, the measurements of some of the elements may be exaggerated and not drawn to scale. The absolute dimensions and the relative dimensions do not correspond to the real relationships for carrying out the invention.
In the figures are visible their various components and accessories:
The following description, with reference to the accompanying drawings, is given as a non-limiting example, in which the invention is explained and how the same may be carried out.
The present invention relates to an apparatus for the control, measuring and reporting a physical quantity, more specifically to a device that can be adapted to any valve of a container containing a fluid under pressure, more particularly a device that can be adapted to any valve of a container containing a gas or a liquid under pressure.
The terms “substantially horizontal”, “substantially vertical”, shall be construed as preferred positions for the embodiment of the invention, being the same operable in other positions, and are the positions perceived by an observer who observes the container placed in a vertical position. It is noted that the terms are used interchangeably in appropriate circumstances and that the embodiments of the invention described herein are capable of functioning in other orientations in addition to those described or illustrated herein.
The expression “sensitive element” must be understood as any element capable of detecting a physical or chemical change, namely but not limited to: magnets, piezoelectric materials, optical sensors, infrared sensors, pressure sensors.
In a first embodiment according to
In a second embodiment, according to
According to
According to
The electronic circuit (S1.3) visible in
According to
As seen in
Being the dosing knob (S1.1) positioned adjacent to the electronic circuit (S1.3), the sensitive elements (S1.1.1) when coming into contact with the contact points (S1.3.1.1) of the circuits (S1.3.1) of the electronic circuit (S1.3) activate at least one of the circuits (S1.3.1) of the electronic circuit (S1.3).
In an embodiment of the present invention in which the sensitive elements are magnets, through an electromagnetic effect, this activation is transmitted to the electronic circuit (S1.3), which in turn transmits it to the electronic board that includes the data processing system (S3).
Since each position of the dosing knob (S1.1) corresponds to a position of the sensitive elements (S1.1.1), which corresponds to the activation of a specific combination of circuits (S.1.3.1) that make up the electronic circuit (S1.3), it is possible for the data processing system (S3) to determine the value of the flow rate.
This information will then be available to be displayed on the display (3) as shown in
A pressure sensor (S2) reads the outlet pressure of the fluid of the container (1). This information is transmitted to the electronic circuit (S1.3), which in turn transmits it to the electronic board which integrates the data processing system (S3).This information will then be available to be displayed on the display (3) as shown in
It is thus possible at any time, either through a local reading or through a remote reading, to know the rate of flow of the fluid, the outlet pressure of the fluid, as well as amount of fluid still remaining within the container (1).
Based on the collected and aforementioned information, it is possible through calculations made on the data processing system (S3) or their export to an external data system, to know the runtime of the container (1), to trace the many consumptions.
De Pais Melo, Marco Alexandre, Pinho Andrade, Nuno Vasco
Patent | Priority | Assignee | Title |
Patent | Priority | Assignee | Title |
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4420811, | Mar 03 1980 | EMHART INC , A DELAWARE CORPORATION | Water temperature and flow rate selection display and control system and method |
4738541, | Oct 16 1986 | WIRTH, ROBERT; COPARA AG | Apparatus for mixing fluids |
8550114, | Oct 04 2010 | J3 MEDICAL LLC | Time remaining display assembly |
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Jan 11 2016 | DE PAIS MELO, MARCO ALEXANDRE | ACAIL GÁS S A | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 037486 | /0057 | |
Jan 11 2016 | PINHO ANDRADE, NUNO VASCO | ACAIL GÁS S A | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 037486 | /0057 | |
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